Bacteriophages of L-Glutamic Acid-Producing Bacteria

Abstract

The effect of the non-ionic surface-active agents (SAA) on the infection of phage P465 of Br. lactofermentum was examined by adsorption and one-step growth experiments as a part of the basic study on the prevention of phage-infection in the industrial fermentation. Among various SAA tested, polyoxyethylene stearyl ether (POE-SE), polyethylene glycol monooleate (PEG-MO) and polyoxyethylene sorbitan monostearate (Tween 60) had remark-ably demonstrated the selective inhibition of phage infection. The effect of the above three SAA was apparently restricted to the initial adsorption step of phage infection, for the phage already adsorbed would not be affected by exposure to SAA. However, the results of one-step growth experiment indicated that Tween 60 inhibited not only the phage-adsorption, but also the maturation of phage already adsorbed in the host cells. The rate of the inhibition was found to be directly related to the concentration of agent. And, the most effective adsorption-inhibition was exhibited at the critical micelle concentration of SAA. The concentration as used in our experiments did not affect the viability of either phages or the host cells. The results also indicated that the inhibition of phage-adsorption was due to the action of SAA on the surface of the bacterial cells rather than on the phage. This is supported by the observation that preincubation of phage with SAA did not affect either the sub-sequent adsorption rate or the plaque-forming ability of the phage. In contrast with above, a short-term exposure of bacterial cells to SAA caused an apparent change to the cell surface which was only partially restored by washing repeatedly. Moreover, the inhibitory effect of SAA on phage-adsorption appears quite specific in the phage-host system.